Magnetic head having a thermoplastic or a thermosetting plastic housing

ABSTRACT

A magnetic head for use with a magnetic tape information recording, storage and retrieval computer system which includes applying a hard, wear-resistant coating to an inexpensive molded plastic body to drastically reduce the cost of the magnetic head component without reducing its reliability or stability and also the method of producing such a magnetic head.

BACKGROUND OF THE INVENTION

The magnetic head is by far the most expensive component of magnetictape drive computer equipment. The head costs two to three times morethan any of the other components. In spite of the fact that the cost ofalmost all of the other components of a computer have been dramaticallyreduced during the last ten to fifteen years, the construction and thecost of the magnetic heads has remained the same. These are verycritical components of all magnetic tape drives, and the tolerances forstability and positioning accuracy of these heads must be kept to withinforty to fifty millionths of an inch.

Some time ago, a sprayed-on ceramic wear coating was developed fortape-engaging heads for computer memory systems. In 1972, I prepared anarticle which was published in Electronics Magazine for June 19, 1972which described this spraying process in conjunction with thedevelopment of the ceramic wear coating material. This sprayed-on wearcoating is accomplished with high temperature (up to 30,000° F.)spraying techniques. The spraying operation deposits a coating of amaterial which is fed into a jet stream of extremely hot, high-speed,inert gases produced within a spray gun such as is manufactured byMetco, Inc., Westbury, Long Island, NY (type 7M plasma gun).

At the present time, brass is the most common material used for the baseor substrate. Brass is not only extremely heavy, but is also relativelyexpensive when compared with molded plastic material. Due to theextremely high temperatures of the sprayed-on, wear-resistant material,plastic has not been used as a substrate and was not believed to be afeasible material for this purpose; however, I have discovered that bycarefully controlling the temperature rise of the prepared substratebody during the depositing of the layer of stabilizing, wear-resistantmaterial on the tape-engaging wear surface of the plastic body,inexpensive, light-weight magnetic head can be successfully produced. Amagnetic head embodying this invention can be produced for only forty tofifty percent of the cost of producing the present heads using a brasssubstrate. This is a reduction of between fifty and sixty percent in theselling price of this component.

SUMMARY OF THE INVENTION

This invention incorporates in a magnetic computer tape head, the use ofa plastic body material, either thermoplastic or thermosetting plastic.This produces a lighter-weight, substantially less expensive head unit.This is accomplished by molding or otherwise forming the head body froman inexpensive plastic material assembling the element of the head andspraying a stabilizing wear coating onto the tape-engaging surface ofthe head.

For this spraying process, the head bodies are mounted in a suitablerotating jig fixture which is mounted for rotation across the path of aspray gun which discharges an inert gas which has been passed through ahigh-voltage electric arc to produce an excited high-speed plasma flowat elevated temperatures up to 30,000° F. The powdered coating materialto be sprayed is fed into the high temperature, high-speed gas dischargeand is melted to form a plasma which is carried by the jet flow as afluid material onto the face of the head. With the brass substrate basematerial, the temperature of the substrate normally rises to slightlyless than 190° F. By controlling the temperature rise of the head beingsprayed by the use of a more efficient cooling air stream and adjustingthe speed at which the jig is rotated, as well as the temperature of thegases being discharged, I have found that it is possible to use aninexpensive plastic substrate as previously stated. Plastic is not asthermally stable as brass, but I have discovered that the stability canbe materially increased by the spraying of the face of the substratebody with the wear-resistant material, thus providing the necessarystability for various uses and applications of the head units. Theplastic base material also has the advantage that it is a far moreductile material than is the more dense, heavier brass body material sothat the layer of wear-resistant material will have sufficient strengthto resist expansion and contraction of the body due to temperaturechanges and will not be fractured by such conditions which may occurduring shipping, storage, and occasionally in use. In other words, theovercoat of the wear-resistant material has sufficient strength toresist distortion of the plastic material when exposed to temperaturevariations to prevent fracturing of the coating material, whichobviously would destroy its usefulness. Due to the forces generatedwithin a conventional brass body during such ambient temperaturechanges, such fracturing of the outer wear coating frequently occurs.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagrammatic perspective view of the rotary jig fixture andspraying apparatus;

FIG. 2 is a perspective view of a completed magnetic head embodying thisinvention; and

FIG. 3 is a central vertical sectional view taken through the head shownin FIG. 2.

DETAILED DESCRIPTION OF THE PERFERRED EMBODYMENT

As best shown in FIG. 1, a rotary jig in the form of a cylindricalfixture 10 is mounted for counterclockwise rotation on its verticalaxis. An array of magnetic heads H is mounted in suitable windowsprovided in the cylindrical outer shell of the fixture. Suitable meansare provided for rotating the fixture 10 such as an electric motor 12connected at the center of the fixture by the shaft 12a. Suitable meansfor controlling the speed of rotation of the fixture 10 are providedsuch as a rheostat 14.

A plasma spray gun 20 is provided and its discharge nozzle 20a isdirected toward the heads H mounted on the rotary fixture 10 generallyradially thereto. A cooling nozzle 25 is provided downstream of the gun20 for discharging cooling air against the faces of the heads H mountedon the fixture 10. Thus, as soon as the hot plasma from the gun 20 isdeposited on the face of each head H, the cooling nozzle 25 directscooling air against the heads. A second cooling nozzle 26 is directedinto the hollow fixture for cooling the fixture assembly. Each head H isusually constructed of a plurality of sections such as 2, 3, 4 oroccasionally more. The head illustrated has a three-piece body assemblywhich includes the two outer body segments 31 and 32 with an innersegment 33 sandwiched therebetween. The three-piece assembly is attachedtogether as by the bolts 35. The three segments are preferably made froma thermoplastic material which can be readily molded as by aconventional injection molding operation. The segments 31 and 32 containC-shaped magnetic core pieces 31a and 32a with the coils 31b and 32brespectively wrapped therearound as in a typical magnetic headconstruction. A pair of I-core pieces 33a are carried by the innersegment 33 and combine with the C-core pieces 31a and 32a to completethe magnetic circuit in the conventional manner and define the gaps 36and 37.

With the three segments of the head H assembled, the head unit isanchored in position in one of the windows of the jig fixture 10 withthe face of the head H facing outwardly in opposed relationship to thedischarge of the plasma spray gun 20, as best shown in FIG. 1. When theassembled heads to be sprayed have been secured in place in the jigfixture 10, the motor 12 is energized to rotate the fixture and thespeed of the motor and the jig fixture 10 is adjusted by means of therheostat 14. The cooling blowers 25 and 26 are actuated and thetemperature of the heads H is monitored by any suitable conventionalmeans to insure that the temperature rise thereof during the sprayingoperation does not exceed the prescribed maximum tolerance. Thistemperature is controlled by varying the speed of rotation of the jigfixture 10 so that by increasing the speed, the exposure time of eachindividual head to the hot spray plasma from the gun 20 will be reduced.In addition to this means for controlling the temperature of the headduring the spraying operation, the discharge of the cooling nozzles 25and 26 can be increased as well as decreasing the temperature thereof.It is also possible to reduce the temperature of the plasma beingsprayed, thus providing a third method for controlling the temperatureof the heads H being sprayed.

The thickness of the coating 40 ultimately produced after the requirednumber of exposures to the plasma flow from the gun 20 should be between0.010 and 0.015 inches. After completion of the spraying operation, theheads are removed from the fixture 10 and the spray coating is groundfrom the gaps 36 and 37 in the normal manner. This permits theconcentration of magnetic flux to be maintained as in conventionalmagnetic heads.

Since the tolerances which must be maintained with respect to thesemagnetic tape heads are within forty to fifty millionths of an inch, itis important that the material used for the body has the degree ofstability necessary to maintain these tolerances during operation.During the development of this invention it was found that the materialfrom which the body was made should have a Heat Deflection Temperatureof above 400° F. according to ASTM Method 648D and provide the requireddimensional stability for operating temperatures up to 350° F. Thefollowing is a partial list of suitable plastic materials:

    ______________________________________                                        Product No.                                                                   or Trademark                                                                            Manufacturer     Address                                            ______________________________________                                        Thermoplastic Materials:                                                      Generic Name:                                                                           Polyphenylene Sulfide                                                         (fiber filled)                                                      Ryton R-4 Phillips Chemical Co.                                                                          Bartlesville, OK                                   Generic Name:                                                                           Poly Amide - Imide                                                  Torion    Amoco Chemical Corp.                                                                           Chicago, IL                                        Thermosetting Plastic Materials:                                              Generic Name:                                                                           Alkyds                                                              #24060    Durez, Div. of Hooker                                                                          Tonawanda, NY                                                Chemicals & Plastic Corp.                                           Generic Name:                                                                           Diallyl Phthalates (DAP)                                            RX2-520   Rogers Corp.     Rogers, CN                                         Generic Name:                                                                           Epoxy                                                               #2648     Fiberite Co.     Winona, MN                                         Generic Name:                                                                           Phenolics                                                           RX862     Rogers Corp.     Rogers, CN                                         Generic Name:                                                                           Polyesters (Thermoset)                                              5-680     Fiberite Co.     Winona, MN                                         Generic Name:                                                                           Polyimide                                                           Kinel-5504                                                                              Rhone-Poulenc, Inc.                                                                            Monmouth Jct., NJ                                  ______________________________________                                    

Those skilled in the art will be aware that thermoplastics andthermosetting plastics all have the capability of being molded either byan injection molding process or by compression molding process, or acombination of the two. It should also be pointed out that while moldingis by far the most convenient and least expensive, other materials suchas polyimide can also be used, in which case a sintered forming processis required. A suitable polyimide material is manufactured by the DupontCompany of Wilmington, Delaware under the trademark VESPEL.

It should also be pointed out that the most common product used for thewear coat as sprayed by the plasma gun 20 is alumina titania which is aceramic material. However, a number of other sprayed-on, long-wearingmaterials have also proven satisfactory such as Tungsto carbide, PureAlumina, chrome oxide, molybdenum and Triboloy which is a Duponttrademark for a suitable, long wearing product.

It should be pointed out that the temperature rise above roomtemperature for the head using a plastic body element must be keptbetween 40° F. and 60° F. and preferably below 50° F. in order toprevent excessive distortion during the spray coating process. In thecase of the brass body elements used in prior art structures, thetemperature rise was permitted to exceed 115° F.

In other words, the maximum temperature with the plastic body should belimited to 130° F. and while the permissible maximum temperature with abrass body could be as high as 190° F.

In addition to the cost advantage, the plastic body produces asubstantial reduction in the weight of the magnetic head assembly. Thisis important for a number of reasons, one of which being that moderntechnology in the computer tape drive equipment includes the rapidmovement of the head under the tape for the purpose of locating thetracks in the head to different positions in the tape. Obviously, thelighter-weight head unit will be of great advantage in any suchmechanism.

It should also be pointed out that the sprayed-on, wear resistantcoating applied to the entire face of the plastic body providesadditional mechanical stability for the upper body portion to preventdistortion thereof during the temperature fluctuations and otherstresses that are applied to the head which may occur duringmanufacture, shipping, installation, and operation.

What is claimed is:
 1. A magnetic head unit for computer equipment comprising,a body forming a magnetic transducer housing made from a thermoplastic or a thermosetting plastic material capable of being formed into the desired shape and dimensions and having a deflection temperature property according to ASTM standards of more than 400° F., and having magnetic transducer components mounted in said body and including core gaps which perform magnetic read-write functions said body including tape-engaging surfaces adjacent to the magnetic core gap components, a coating of wear-resistant material bonded to the tape-engaging surface to produce the desired wear resistance and mechanical stability to the tape-engaging surface and upper head portion required for such a magnetic head.
 2. The structure set forth in claim 1 wherein the plastic body material is molded into the desired shape and dimensions.
 3. The structure set forth in claim 2 wherein the body is made from thermoplastic material.
 4. The structure set forth in claim 3 wherein said material constitutes polyphenylene sulfide resin reinforced with glass fiber.
 5. The structure set forth in claim 2 wherein the body material constitutes thermosetting plastic.
 6. The structure set forth in claim 5 wherein the thermosetting plastic body material constitutes an alkyd.
 7. The structure set forth in claim 5 wherein the thermosetting plastic body material constitutes a diallyl phthalate.
 8. The structure set forth in claim 5 wherein the thermosetting plastic body material constitutes an epoxy.
 9. The structure set forth in claim 5 wherein the thermosetting plastic body material constitutes a phenolic.
 10. The structure set forth in claim 5 wherein the thermosetting plastic body material constitutes thermosetting polyester.
 11. The structure set forth in claim 5 wherein the thermosetting plastic body material constitutes a polyimide.
 12. The structure set forth in claim 1 wherein the material is capable of being cast and sintered.
 13. The structure set forth in claim 12 wherein the body material is polyimide. 